Laser-Patterned n-Type Front-Junction Silicon Solar Cell With Tantalum Oxide/Silicon Nitride Passivation and Antireflection
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Wan, Yimao
Hsiao, Pei-Chieh
Zhang, Wei
Lennon, Alison
Chen, Yifeng
Feng, Zhiqiang
Verlinden, Pierre
Samundsett, Christian
Cui, Jie (Jason)
Yan, Di
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Wiley Online Library
Abstract
This work demonstrates, for the first time, a tantalum oxide/silicon nitride (Ta2O5/SiNx) stack as a combined passivation and antireflection coating deposited on the boron‐diffused front surface of n‐type silicon solar cells. Due to the high chemical resistance of Ta2O5, the patterning of the films is realized via picosecond laser ablation, followed by a field‐induced metal plating of nickel and copper to form the front metal grid electrode. A solar cell conversion efficiency of 19.3% is achieved, and further improvements are anticipated from the optimization of the laser ablation process and the tuning of the thickness of the individual layers of the dielectric stack.
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RRL Solar
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2037-12-31
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